This paper presented an inverse optimal neural controller with speed gradient (SG) for discrete-time unknown nonlinear systems in the presence of external disturbances and parameter uncertainties, for a power electric system with different types of faults in the transmission lines including load variations. It is based on a discrete-time recurrent high order neural network (RHONN) trained with an extended Kalman filter (EKF) based algorithm. It is well known that electric power grids are considered as complex systems due to their interconections and number of state variables; then, in this paper, a reduced neural model for synchronous machine is proposed for the stabilization of nine bus system in the presence of a fault in three different ...
This paper presents the development of a neural inverse optimal control (NIOC) for a regenerative br...
This paper presents a discrete-time inverse optimal control for trajectory tracking applied to a thr...
This work presents a procedure for transient stability analysis and preventive control of electric p...
This paper presented an inverse optimal neural controller with speed gradient (SG) for discrete-time...
This paper presented an inverse optimal neural controller with speed gradient (SG) for discrete-time...
In this paper an inverse optimal neural controller with speed gradient (SG) for discrete-time unknow...
This paper presents a discrete-time inverse optimal control for trajectory tracking applied to a thr...
An inverse optimal neural controller for discrete-time unknown nonlinear systems, in the presence of...
An inverse optimal neural controller for discrete-time unknown nonlinear systems, in the presence of...
This paper presents a robust inverse optimal neural control approach for stabilization of discrete-t...
The main purpose of this paper is to design a regulator which enables a power system to track refere...
In this paper, a discrete-time inverse optimal control is applied to a three-phase linear induction ...
This paper describes an application of layered neural networks to nonlinear power systems control. A...
This dissertation includes three papers on power system stabilization using neural network based con...
This paper discusses neural inverse optimal control to achieve stabilization for discrete-time uncer...
This paper presents the development of a neural inverse optimal control (NIOC) for a regenerative br...
This paper presents a discrete-time inverse optimal control for trajectory tracking applied to a thr...
This work presents a procedure for transient stability analysis and preventive control of electric p...
This paper presented an inverse optimal neural controller with speed gradient (SG) for discrete-time...
This paper presented an inverse optimal neural controller with speed gradient (SG) for discrete-time...
In this paper an inverse optimal neural controller with speed gradient (SG) for discrete-time unknow...
This paper presents a discrete-time inverse optimal control for trajectory tracking applied to a thr...
An inverse optimal neural controller for discrete-time unknown nonlinear systems, in the presence of...
An inverse optimal neural controller for discrete-time unknown nonlinear systems, in the presence of...
This paper presents a robust inverse optimal neural control approach for stabilization of discrete-t...
The main purpose of this paper is to design a regulator which enables a power system to track refere...
In this paper, a discrete-time inverse optimal control is applied to a three-phase linear induction ...
This paper describes an application of layered neural networks to nonlinear power systems control. A...
This dissertation includes three papers on power system stabilization using neural network based con...
This paper discusses neural inverse optimal control to achieve stabilization for discrete-time uncer...
This paper presents the development of a neural inverse optimal control (NIOC) for a regenerative br...
This paper presents a discrete-time inverse optimal control for trajectory tracking applied to a thr...
This work presents a procedure for transient stability analysis and preventive control of electric p...